Quartet H2O LDD Actively Cooled Lateral Surgical Fiber Optic

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Infrared surgical lasers, e.g. CTH:YAG @ 2100 nm and TM:YAG @ 2000 nm, are wonderful tools for minimally invasive surgery such as laser vaporization of hyperplastic prostate tissue (BPH), but they are completely incompatible with right angle, off-axis delivery fiber optics find great utility for vaporization of prostate gland lobes about the urethra at less challenging wavelengths, e.g. 532 nm, where water is transparent. The fundamental advantage of infrared lasers is strong absorption by water (within tissue) but this very absorption renders water-cooled side firing fibers useless with these laser generators, i.e. MoXy®, by Boston Scientific; where the surgical beam passes through the coaxial cooling jacket, the coolant boils and blocks further flow, overheating the device rapidly.

Uncooled side firing fibers are used by some surgeons, but these devices also overheat if used at anything approaching the maximum laser output and even at ½ power, more than one fiber is typically required to complete a surgical case due to accumulated thermal damage. Worse, the performance of these inadequate fiber devices degrades rapidly during surgery. Specifically, a MoXy fiber is rated at 180W (532 nm) for 650KJ total energy delivered, minimum where uncooled side fire fibers are limited to 100W (2000 nm to 2100 nm) and typically fail at 100KJ.

The Quartet™ H2O LDD (Patent 9,662,173) is designed with multiple coolant conduction channels formed within the active end of the fiber optic device similar to a heat exchanger coil (for more efficient heat transfer due to Dean’s vortices induces in the tight coil) without crossing the optical path, thereby avoiding interaction with the therapeutic laser energy. The lateral redirection mechanism is contained entirely within the distal cap assembly such that steering the fiber output to address each of the three prostate lobes is accomplished without torquing the optical fiber, allowing more precise control. This cap assembly also contains optics that provide control of the output spot diameter and a more uniform (top hat) radiant intensity such that a larger tissue area may be treated when more laser power is used, thereby avoiding tissue charring due to overtreatment that is common with fixed output, semi-Gaussian output profiles.

Due to the strong absorption of saline irrigant within the surgical field, lateral delivery fibers are typically held in contact with tissue to avoid energy loss in boiling the saline. Under these conditions, active cooling can only do so much to forestall performance degradation and increase longevity. The Commercialized device performance will be augmented with a silver metal jacket about the distal cap to conduct excess heat to a proximally located steel cannula that also serves as the coolant conduit. Control of the fiber output spot diameter is via altering the separation between the fiber optic axial output and the input of the beam shaping optic via a selector in a control device that is located ex-vivo on the optical fiber. This control device is also used for aiming the beam by transferring rotations through the steel cannula to the distal output capsule.

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  • ABOUT THE ENTRANT

  • Name:
    Stephen Griffin
  • Type of entry:
    individual
  • Profession:
    Scientist
  • Number of times previously entering contest:
    4
  • Stephen's favorite design and analysis tools:
    SolidWorks, high frame rate camera, pencil and paper, whiteboard
  • Stephen's hobbies and activities:
    solar power, electric vehicles, analytical chem
  • Stephen belongs to these online communities:
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  • Stephen is inspired by:
    Problems are bread and butter to inventors: without them we have little or nothing to do. Finding problems is facilitated by discussions with prominent surgeons, often with a bit of social lubricant, and by viewing surgeries live. Problems that the doctors themselves may not recognize or believed insurmountable are exposed for study..
  • Software used for this entry:
    Solidworks 2016
  • Patent status:
    patented